sftpgo-mirror/dataprovider/user.go
Nicola Murino d8de0faef5
allow to require two-factor auth for users
Fixes #721

Signed-off-by: Nicola Murino <nicola.murino@gmail.com>
2022-03-06 16:57:13 +01:00

1570 lines
47 KiB
Go

package dataprovider
import (
"crypto/sha256"
"encoding/base64"
"encoding/json"
"errors"
"fmt"
"math"
"net"
"os"
"path"
"path/filepath"
"strings"
"time"
"github.com/sftpgo/sdk"
"github.com/drakkan/sftpgo/v2/kms"
"github.com/drakkan/sftpgo/v2/logger"
"github.com/drakkan/sftpgo/v2/mfa"
"github.com/drakkan/sftpgo/v2/plugin"
"github.com/drakkan/sftpgo/v2/util"
"github.com/drakkan/sftpgo/v2/vfs"
)
// Available permissions for SFTPGo users
const (
// All permissions are granted
PermAny = "*"
// List items such as files and directories is allowed
PermListItems = "list"
// download files is allowed
PermDownload = "download"
// upload files is allowed
PermUpload = "upload"
// overwrite an existing file, while uploading, is allowed
// upload permission is required to allow file overwrite
PermOverwrite = "overwrite"
// delete files or directories is allowed
PermDelete = "delete"
// delete files is allowed
PermDeleteFiles = "delete_files"
// delete directories is allowed
PermDeleteDirs = "delete_dirs"
// rename files or directories is allowed
PermRename = "rename"
// rename files is allowed
PermRenameFiles = "rename_files"
// rename directories is allowed
PermRenameDirs = "rename_dirs"
// create directories is allowed
PermCreateDirs = "create_dirs"
// create symbolic links is allowed
PermCreateSymlinks = "create_symlinks"
// changing file or directory permissions is allowed
PermChmod = "chmod"
// changing file or directory owner and group is allowed
PermChown = "chown"
// changing file or directory access and modification time is allowed
PermChtimes = "chtimes"
)
// Available login methods
const (
LoginMethodNoAuthTryed = "no_auth_tryed"
LoginMethodPassword = "password"
SSHLoginMethodPassword = "password-over-SSH"
SSHLoginMethodPublicKey = "publickey"
SSHLoginMethodKeyboardInteractive = "keyboard-interactive"
SSHLoginMethodKeyAndPassword = "publickey+password"
SSHLoginMethodKeyAndKeyboardInt = "publickey+keyboard-interactive"
LoginMethodTLSCertificate = "TLSCertificate"
LoginMethodTLSCertificateAndPwd = "TLSCertificate+password"
LoginMethodIDP = "IDP"
)
var (
errNoMatchingVirtualFolder = errors.New("no matching virtual folder found")
permsRenameAny = []string{PermRename, PermRenameDirs, PermRenameFiles}
permsDeleteAny = []string{PermDelete, PermDeleteDirs, PermDeleteFiles}
)
// RecoveryCode defines a 2FA recovery code
type RecoveryCode struct {
Secret *kms.Secret `json:"secret"`
Used bool `json:"used,omitempty"`
}
// UserTOTPConfig defines the time-based one time password configuration
type UserTOTPConfig struct {
Enabled bool `json:"enabled,omitempty"`
ConfigName string `json:"config_name,omitempty"`
Secret *kms.Secret `json:"secret,omitempty"`
// TOTP will be required for the specified protocols.
// SSH protocol (SFTP/SCP/SSH commands) will ask for the TOTP passcode if the client uses keyboard interactive
// authentication.
// FTP have no standard way to support two factor authentication, if you
// enable the support for this protocol you have to add the TOTP passcode after the password.
// For example if your password is "password" and your one time passcode is
// "123456" you have to use "password123456" as password.
Protocols []string `json:"protocols,omitempty"`
}
// UserFilters defines additional restrictions for a user
// TODO: rename to UserOptions in v3
type UserFilters struct {
sdk.BaseUserFilters
// Time-based one time passwords configuration
TOTPConfig UserTOTPConfig `json:"totp_config,omitempty"`
// Recovery codes to use if the user loses access to their second factor auth device.
// Each code can only be used once, you should use these codes to login and disable or
// reset 2FA for your account
RecoveryCodes []RecoveryCode `json:"recovery_codes,omitempty"`
}
// User defines a SFTPGo user
type User struct {
sdk.BaseUser
// Additional restrictions
Filters UserFilters `json:"filters"`
// Mapping between virtual paths and virtual folders
VirtualFolders []vfs.VirtualFolder `json:"virtual_folders,omitempty"`
// Filesystem configuration details
FsConfig vfs.Filesystem `json:"filesystem"`
// we store the filesystem here using the base path as key.
fsCache map[string]vfs.Fs `json:"-"`
}
// GetFilesystem returns the base filesystem for this user
func (u *User) GetFilesystem(connectionID string) (fs vfs.Fs, err error) {
fs, err = u.getRootFs(connectionID)
if err != nil {
return fs, err
}
u.fsCache = make(map[string]vfs.Fs)
u.fsCache["/"] = fs
return fs, err
}
func (u *User) getRootFs(connectionID string) (fs vfs.Fs, err error) {
switch u.FsConfig.Provider {
case sdk.S3FilesystemProvider:
return vfs.NewS3Fs(connectionID, u.GetHomeDir(), "", u.FsConfig.S3Config)
case sdk.GCSFilesystemProvider:
config := u.FsConfig.GCSConfig
config.CredentialFile = u.GetGCSCredentialsFilePath()
return vfs.NewGCSFs(connectionID, u.GetHomeDir(), "", config)
case sdk.AzureBlobFilesystemProvider:
return vfs.NewAzBlobFs(connectionID, u.GetHomeDir(), "", u.FsConfig.AzBlobConfig)
case sdk.CryptedFilesystemProvider:
return vfs.NewCryptFs(connectionID, u.GetHomeDir(), "", u.FsConfig.CryptConfig)
case sdk.SFTPFilesystemProvider:
forbiddenSelfUsers, err := u.getForbiddenSFTPSelfUsers(u.FsConfig.SFTPConfig.Username)
if err != nil {
return nil, err
}
forbiddenSelfUsers = append(forbiddenSelfUsers, u.Username)
return vfs.NewSFTPFs(connectionID, "", u.GetHomeDir(), forbiddenSelfUsers, u.FsConfig.SFTPConfig)
default:
return vfs.NewOsFs(connectionID, u.GetHomeDir(), ""), nil
}
}
func (u *User) checkDirWithParents(virtualDirPath, connectionID string) error {
dirs := util.GetDirsForVirtualPath(virtualDirPath)
for idx := len(dirs) - 1; idx >= 0; idx-- {
vPath := dirs[idx]
if vPath == "/" {
continue
}
fs, err := u.GetFilesystemForPath(vPath, connectionID)
if err != nil {
return fmt.Errorf("unable to get fs for path %#v: %w", vPath, err)
}
if fs.HasVirtualFolders() {
continue
}
fsPath, err := fs.ResolvePath(vPath)
if err != nil {
return fmt.Errorf("unable to resolve path %#v: %w", vPath, err)
}
_, err = fs.Stat(fsPath)
if err == nil {
continue
}
if fs.IsNotExist(err) {
err = fs.Mkdir(fsPath)
if err != nil {
return err
}
vfs.SetPathPermissions(fs, fsPath, u.GetUID(), u.GetGID())
} else {
return fmt.Errorf("unable to stat path %#v: %w", vPath, err)
}
}
return nil
}
// CheckFsRoot check the root directory for the main fs and the virtual folders.
// It returns an error if the main filesystem cannot be created
func (u *User) CheckFsRoot(connectionID string) error {
if u.Filters.DisableFsChecks {
return nil
}
delay := lastLoginMinDelay
if u.Filters.ExternalAuthCacheTime > 0 {
cacheTime := time.Duration(u.Filters.ExternalAuthCacheTime) * time.Second
if cacheTime > delay {
delay = cacheTime
}
}
if isLastActivityRecent(u.LastLogin, delay) {
if u.LastLogin > u.UpdatedAt {
return nil
}
}
fs, err := u.GetFilesystemForPath("/", connectionID)
if err != nil {
logger.Warn(logSender, connectionID, "could not create main filesystem for user %#v err: %v", u.Username, err)
return err
}
fs.CheckRootPath(u.Username, u.GetUID(), u.GetGID())
if u.Filters.StartDirectory != "" {
err = u.checkDirWithParents(u.Filters.StartDirectory, connectionID)
if err != nil {
logger.Warn(logSender, connectionID, "could not create start directory %#v, err: %v",
u.Filters.StartDirectory, err)
}
}
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
fs, err = u.GetFilesystemForPath(v.VirtualPath, connectionID)
if err == nil {
fs.CheckRootPath(u.Username, u.GetUID(), u.GetGID())
}
// now check intermediary folders
err = u.checkDirWithParents(path.Dir(v.VirtualPath), connectionID)
if err != nil {
logger.Warn(logSender, connectionID, "could not create intermediary dir to %#v, err: %v", v.VirtualPath, err)
}
}
return nil
}
// GetCleanedPath returns a clean POSIX absolute path using the user start directory as base
// if the provided rawVirtualPath is relative
func (u *User) GetCleanedPath(rawVirtualPath string) string {
if u.Filters.StartDirectory != "" {
if !path.IsAbs(rawVirtualPath) {
var b strings.Builder
b.Grow(len(u.Filters.StartDirectory) + 1 + len(rawVirtualPath))
b.WriteString(u.Filters.StartDirectory)
b.WriteString("/")
b.WriteString(rawVirtualPath)
return util.CleanPath(b.String())
}
}
return util.CleanPath(rawVirtualPath)
}
// isFsEqual returns true if the filesystem configurations are the same
func (u *User) isFsEqual(other *User) bool {
if u.FsConfig.Provider == sdk.LocalFilesystemProvider && u.GetHomeDir() != other.GetHomeDir() {
return false
}
if !u.FsConfig.IsEqual(&other.FsConfig) {
return false
}
if u.Filters.StartDirectory != other.Filters.StartDirectory {
return false
}
if len(u.VirtualFolders) != len(other.VirtualFolders) {
return false
}
for idx := range u.VirtualFolders {
f := &u.VirtualFolders[idx]
found := false
for idx1 := range other.VirtualFolders {
f1 := &other.VirtualFolders[idx1]
if f.VirtualPath == f1.VirtualPath {
found = true
if f.FsConfig.Provider == sdk.LocalFilesystemProvider && f.MappedPath != f1.MappedPath {
return false
}
if !f.FsConfig.IsEqual(&f1.FsConfig) {
return false
}
}
}
if !found {
return false
}
}
return true
}
// CheckLoginConditions checks if the user is active and not expired
func (u *User) CheckLoginConditions() error {
if u.Status < 1 {
return fmt.Errorf("user %#v is disabled", u.Username)
}
if u.ExpirationDate > 0 && u.ExpirationDate < util.GetTimeAsMsSinceEpoch(time.Now()) {
return fmt.Errorf("user %#v is expired, expiration timestamp: %v current timestamp: %v", u.Username,
u.ExpirationDate, util.GetTimeAsMsSinceEpoch(time.Now()))
}
return nil
}
// hideConfidentialData hides user confidential data
func (u *User) hideConfidentialData() {
u.Password = ""
u.FsConfig.HideConfidentialData()
if u.Filters.TOTPConfig.Secret != nil {
u.Filters.TOTPConfig.Secret.Hide()
}
for _, code := range u.Filters.RecoveryCodes {
if code.Secret != nil {
code.Secret.Hide()
}
}
}
// GetSubDirPermissions returns permissions for sub directories
func (u *User) GetSubDirPermissions() []sdk.DirectoryPermissions {
var result []sdk.DirectoryPermissions
for k, v := range u.Permissions {
if k == "/" {
continue
}
dirPerms := sdk.DirectoryPermissions{
Path: k,
Permissions: v,
}
result = append(result, dirPerms)
}
return result
}
// RenderAsJSON implements the renderer interface used within plugins
func (u *User) RenderAsJSON(reload bool) ([]byte, error) {
if reload {
user, err := provider.userExists(u.Username)
if err != nil {
providerLog(logger.LevelError, "unable to reload user before rendering as json: %v", err)
return nil, err
}
user.PrepareForRendering()
return json.Marshal(user)
}
u.PrepareForRendering()
return json.Marshal(u)
}
// PrepareForRendering prepares a user for rendering.
// It hides confidential data and set to nil the empty secrets
// so they are not serialized
func (u *User) PrepareForRendering() {
u.hideConfidentialData()
u.FsConfig.SetNilSecretsIfEmpty()
for idx := range u.VirtualFolders {
folder := &u.VirtualFolders[idx]
folder.PrepareForRendering()
}
}
// HasRedactedSecret returns true if the user has a redacted secret
func (u *User) hasRedactedSecret() bool {
if u.FsConfig.HasRedactedSecret() {
return true
}
for idx := range u.VirtualFolders {
folder := &u.VirtualFolders[idx]
if folder.HasRedactedSecret() {
return true
}
}
return u.Filters.TOTPConfig.Secret.IsRedacted()
}
// CloseFs closes the underlying filesystems
func (u *User) CloseFs() error {
if u.fsCache == nil {
return nil
}
var err error
for _, fs := range u.fsCache {
errClose := fs.Close()
if err == nil {
err = errClose
}
}
return err
}
// IsPasswordHashed returns true if the password is hashed
func (u *User) IsPasswordHashed() bool {
return util.IsStringPrefixInSlice(u.Password, hashPwdPrefixes)
}
// IsTLSUsernameVerificationEnabled returns true if we need to extract the username
// from the client TLS certificate
func (u *User) IsTLSUsernameVerificationEnabled() bool {
if u.Filters.TLSUsername != "" {
return u.Filters.TLSUsername != sdk.TLSUsernameNone
}
return false
}
// SetEmptySecrets sets to empty any user secret
func (u *User) SetEmptySecrets() {
u.FsConfig.SetEmptySecrets()
for idx := range u.VirtualFolders {
folder := &u.VirtualFolders[idx]
folder.FsConfig.SetEmptySecrets()
}
u.Filters.TOTPConfig.Secret = kms.NewEmptySecret()
}
// GetPermissionsForPath returns the permissions for the given path.
// The path must be a SFTPGo exposed path
func (u *User) GetPermissionsForPath(p string) []string {
permissions := []string{}
if perms, ok := u.Permissions["/"]; ok {
// if only root permissions are defined returns them unconditionally
if len(u.Permissions) == 1 {
return perms
}
// fallback permissions
permissions = perms
}
dirsForPath := util.GetDirsForVirtualPath(p)
// dirsForPath contains all the dirs for a given path in reverse order
// for example if the path is: /1/2/3/4 it contains:
// [ "/1/2/3/4", "/1/2/3", "/1/2", "/1", "/" ]
// so the first match is the one we are interested to
for idx := range dirsForPath {
if perms, ok := u.Permissions[dirsForPath[idx]]; ok {
permissions = perms
break
}
}
return permissions
}
// HasBufferedSFTP returns true if the user has a SFTP filesystem with buffering enabled
func (u *User) HasBufferedSFTP(name string) bool {
fs := u.GetFsConfigForPath(name)
if fs.Provider == sdk.SFTPFilesystemProvider {
return fs.SFTPConfig.BufferSize > 0
}
return false
}
func (u *User) getForbiddenSFTPSelfUsers(username string) ([]string, error) {
sftpUser, err := UserExists(username)
if err == nil {
// we don't allow local nested SFTP folders
var forbiddens []string
if sftpUser.FsConfig.Provider == sdk.SFTPFilesystemProvider {
forbiddens = append(forbiddens, sftpUser.Username)
return forbiddens, nil
}
for idx := range sftpUser.VirtualFolders {
v := &sftpUser.VirtualFolders[idx]
if v.FsConfig.Provider == sdk.SFTPFilesystemProvider {
forbiddens = append(forbiddens, sftpUser.Username)
return forbiddens, nil
}
}
return forbiddens, nil
}
if _, ok := err.(*util.RecordNotFoundError); !ok {
return nil, err
}
return nil, nil
}
// GetFsConfigForPath returns the file system configuration for the specified virtual path
func (u *User) GetFsConfigForPath(virtualPath string) vfs.Filesystem {
if virtualPath != "" && virtualPath != "/" && len(u.VirtualFolders) > 0 {
folder, err := u.GetVirtualFolderForPath(virtualPath)
if err == nil {
return folder.FsConfig
}
}
return u.FsConfig
}
// GetFilesystemForPath returns the filesystem for the given path
func (u *User) GetFilesystemForPath(virtualPath, connectionID string) (vfs.Fs, error) {
if u.fsCache == nil {
u.fsCache = make(map[string]vfs.Fs)
}
if virtualPath != "" && virtualPath != "/" && len(u.VirtualFolders) > 0 {
folder, err := u.GetVirtualFolderForPath(virtualPath)
if err == nil {
if fs, ok := u.fsCache[folder.VirtualPath]; ok {
return fs, nil
}
forbiddenSelfUsers := []string{u.Username}
if folder.FsConfig.Provider == sdk.SFTPFilesystemProvider {
forbiddens, err := u.getForbiddenSFTPSelfUsers(folder.FsConfig.SFTPConfig.Username)
if err != nil {
return nil, err
}
forbiddenSelfUsers = append(forbiddenSelfUsers, forbiddens...)
}
fs, err := folder.GetFilesystem(connectionID, forbiddenSelfUsers)
if err == nil {
u.fsCache[folder.VirtualPath] = fs
}
return fs, err
}
}
if val, ok := u.fsCache["/"]; ok {
return val, nil
}
return u.GetFilesystem(connectionID)
}
// GetVirtualFolderForPath returns the virtual folder containing the specified virtual path.
// If the path is not inside a virtual folder an error is returned
func (u *User) GetVirtualFolderForPath(virtualPath string) (vfs.VirtualFolder, error) {
var folder vfs.VirtualFolder
if virtualPath == "/" || len(u.VirtualFolders) == 0 {
return folder, errNoMatchingVirtualFolder
}
dirsForPath := util.GetDirsForVirtualPath(virtualPath)
for index := range dirsForPath {
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if v.VirtualPath == dirsForPath[index] {
return *v, nil
}
}
}
return folder, errNoMatchingVirtualFolder
}
// CheckMetadataConsistency checks the consistency between the metadata stored
// in the configured metadata plugin and the filesystem
func (u *User) CheckMetadataConsistency() error {
fs, err := u.getRootFs("")
if err != nil {
return err
}
defer fs.Close()
if err = fs.CheckMetadata(); err != nil {
return err
}
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if err = v.CheckMetadataConsistency(); err != nil {
return err
}
}
return nil
}
// ScanQuota scans the user home dir and virtual folders, included in its quota,
// and returns the number of files and their size
func (u *User) ScanQuota() (int, int64, error) {
fs, err := u.getRootFs("")
if err != nil {
return 0, 0, err
}
defer fs.Close()
numFiles, size, err := fs.ScanRootDirContents()
if err != nil {
return numFiles, size, err
}
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if !v.IsIncludedInUserQuota() {
continue
}
num, s, err := v.ScanQuota()
if err != nil {
return numFiles, size, err
}
numFiles += num
size += s
}
return numFiles, size, nil
}
// GetVirtualFoldersInPath returns the virtual folders inside virtualPath including
// any parents
func (u *User) GetVirtualFoldersInPath(virtualPath string) map[string]bool {
result := make(map[string]bool)
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
dirsForPath := util.GetDirsForVirtualPath(v.VirtualPath)
for index := range dirsForPath {
d := dirsForPath[index]
if d == "/" {
continue
}
if path.Dir(d) == virtualPath {
result[d] = true
}
}
}
if u.Filters.StartDirectory != "" {
dirsForPath := util.GetDirsForVirtualPath(u.Filters.StartDirectory)
for index := range dirsForPath {
d := dirsForPath[index]
if d == "/" {
continue
}
if path.Dir(d) == virtualPath {
result[d] = true
}
}
}
return result
}
func (u *User) hasVirtualDirs() bool {
return len(u.VirtualFolders) > 0 || u.Filters.StartDirectory != ""
}
// FilterListDir adds virtual folders and remove hidden items from the given files list
func (u *User) FilterListDir(dirContents []os.FileInfo, virtualPath string) []os.FileInfo {
filter := u.getPatternsFilterForPath(virtualPath)
if !u.hasVirtualDirs() && filter.DenyPolicy != sdk.DenyPolicyHide {
return dirContents
}
vdirs := make(map[string]bool)
for dir := range u.GetVirtualFoldersInPath(virtualPath) {
dirName := path.Base(dir)
if filter.DenyPolicy == sdk.DenyPolicyHide {
if !filter.CheckAllowed(dirName) {
continue
}
}
vdirs[dirName] = true
}
validIdx := 0
for index, fi := range dirContents {
for dir := range vdirs {
if fi.Name() == dir {
if !fi.IsDir() {
fi = vfs.NewFileInfo(dir, true, 0, time.Now(), false)
dirContents[index] = fi
}
delete(vdirs, dir)
}
}
if filter.DenyPolicy == sdk.DenyPolicyHide {
if filter.CheckAllowed(fi.Name()) {
dirContents[validIdx] = fi
validIdx++
}
}
}
if filter.DenyPolicy == sdk.DenyPolicyHide {
for idx := validIdx; idx < len(dirContents); idx++ {
dirContents[idx] = nil
}
dirContents = dirContents[:validIdx]
}
for dir := range vdirs {
fi := vfs.NewFileInfo(dir, true, 0, time.Now(), false)
dirContents = append(dirContents, fi)
}
return dirContents
}
// IsMappedPath returns true if the specified filesystem path has a virtual folder mapping.
// The filesystem path must be cleaned before calling this method
func (u *User) IsMappedPath(fsPath string) bool {
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if fsPath == v.MappedPath {
return true
}
}
return false
}
// IsVirtualFolder returns true if the specified virtual path is a virtual folder
func (u *User) IsVirtualFolder(virtualPath string) bool {
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if virtualPath == v.VirtualPath {
return true
}
}
return false
}
// HasVirtualFoldersInside returns true if there are virtual folders inside the
// specified virtual path. We assume that path are cleaned
func (u *User) HasVirtualFoldersInside(virtualPath string) bool {
if virtualPath == "/" && len(u.VirtualFolders) > 0 {
return true
}
for idx := range u.VirtualFolders {
v := &u.VirtualFolders[idx]
if len(v.VirtualPath) > len(virtualPath) {
if strings.HasPrefix(v.VirtualPath, virtualPath+"/") {
return true
}
}
}
return false
}
// HasPermissionsInside returns true if the specified virtualPath has no permissions itself and
// no subdirs with defined permissions
func (u *User) HasPermissionsInside(virtualPath string) bool {
for dir := range u.Permissions {
if dir == virtualPath {
return true
} else if len(dir) > len(virtualPath) {
if strings.HasPrefix(dir, virtualPath+"/") {
return true
}
}
}
return false
}
// HasPerm returns true if the user has the given permission or any permission
func (u *User) HasPerm(permission, path string) bool {
perms := u.GetPermissionsForPath(path)
if util.IsStringInSlice(PermAny, perms) {
return true
}
return util.IsStringInSlice(permission, perms)
}
// HasAnyPerm returns true if the user has at least one of the given permissions
func (u *User) HasAnyPerm(permissions []string, path string) bool {
perms := u.GetPermissionsForPath(path)
if util.IsStringInSlice(PermAny, perms) {
return true
}
for _, permission := range permissions {
if util.IsStringInSlice(permission, perms) {
return true
}
}
return false
}
// HasPerms returns true if the user has all the given permissions
func (u *User) HasPerms(permissions []string, path string) bool {
perms := u.GetPermissionsForPath(path)
if util.IsStringInSlice(PermAny, perms) {
return true
}
for _, permission := range permissions {
if !util.IsStringInSlice(permission, perms) {
return false
}
}
return true
}
// HasPermsDeleteAll returns true if the user can delete both files and directories
// for the given path
func (u *User) HasPermsDeleteAll(path string) bool {
perms := u.GetPermissionsForPath(path)
canDeleteFiles := false
canDeleteDirs := false
for _, permission := range perms {
if permission == PermAny || permission == PermDelete {
return true
}
if permission == PermDeleteFiles {
canDeleteFiles = true
}
if permission == PermDeleteDirs {
canDeleteDirs = true
}
}
return canDeleteFiles && canDeleteDirs
}
// HasPermsRenameAll returns true if the user can rename both files and directories
// for the given path
func (u *User) HasPermsRenameAll(path string) bool {
perms := u.GetPermissionsForPath(path)
canRenameFiles := false
canRenameDirs := false
for _, permission := range perms {
if permission == PermAny || permission == PermRename {
return true
}
if permission == PermRenameFiles {
canRenameFiles = true
}
if permission == PermRenameDirs {
canRenameDirs = true
}
}
return canRenameFiles && canRenameDirs
}
// HasNoQuotaRestrictions returns true if no quota restrictions need to be applyed
func (u *User) HasNoQuotaRestrictions(checkFiles bool) bool {
if u.QuotaSize == 0 && (!checkFiles || u.QuotaFiles == 0) {
return true
}
return false
}
// IsLoginMethodAllowed returns true if the specified login method is allowed
func (u *User) IsLoginMethodAllowed(loginMethod, protocol string, partialSuccessMethods []string) bool {
if len(u.Filters.DeniedLoginMethods) == 0 {
return true
}
if len(partialSuccessMethods) == 1 {
for _, method := range u.GetNextAuthMethods(partialSuccessMethods, true) {
if method == loginMethod {
return true
}
}
}
if util.IsStringInSlice(loginMethod, u.Filters.DeniedLoginMethods) {
return false
}
if protocol == protocolSSH && loginMethod == LoginMethodPassword {
if util.IsStringInSlice(SSHLoginMethodPassword, u.Filters.DeniedLoginMethods) {
return false
}
}
return true
}
// GetNextAuthMethods returns the list of authentications methods that
// can continue for multi-step authentication
func (u *User) GetNextAuthMethods(partialSuccessMethods []string, isPasswordAuthEnabled bool) []string {
var methods []string
if len(partialSuccessMethods) != 1 {
return methods
}
if partialSuccessMethods[0] != SSHLoginMethodPublicKey {
return methods
}
for _, method := range u.GetAllowedLoginMethods() {
if method == SSHLoginMethodKeyAndPassword && isPasswordAuthEnabled {
methods = append(methods, LoginMethodPassword)
}
if method == SSHLoginMethodKeyAndKeyboardInt {
methods = append(methods, SSHLoginMethodKeyboardInteractive)
}
}
return methods
}
// IsPartialAuth returns true if the specified login method is a step for
// a multi-step Authentication.
// We support publickey+password and publickey+keyboard-interactive, so
// only publickey can returns partial success.
// We can have partial success if only multi-step Auth methods are enabled
func (u *User) IsPartialAuth(loginMethod string) bool {
if loginMethod != SSHLoginMethodPublicKey {
return false
}
for _, method := range u.GetAllowedLoginMethods() {
if method == LoginMethodTLSCertificate || method == LoginMethodTLSCertificateAndPwd ||
method == SSHLoginMethodPassword {
continue
}
if !util.IsStringInSlice(method, SSHMultiStepsLoginMethods) {
return false
}
}
return true
}
// GetAllowedLoginMethods returns the allowed login methods
func (u *User) GetAllowedLoginMethods() []string {
var allowedMethods []string
for _, method := range ValidLoginMethods {
if method == SSHLoginMethodPassword {
continue
}
if !util.IsStringInSlice(method, u.Filters.DeniedLoginMethods) {
allowedMethods = append(allowedMethods, method)
}
}
return allowedMethods
}
// GetFlatFilePatterns returns file patterns as flat list
// duplicating a path if it has both allowed and denied patterns
func (u *User) GetFlatFilePatterns() []sdk.PatternsFilter {
var result []sdk.PatternsFilter
for _, pattern := range u.Filters.FilePatterns {
if len(pattern.AllowedPatterns) > 0 {
result = append(result, sdk.PatternsFilter{
Path: pattern.Path,
AllowedPatterns: pattern.AllowedPatterns,
DenyPolicy: pattern.DenyPolicy,
})
}
if len(pattern.DeniedPatterns) > 0 {
result = append(result, sdk.PatternsFilter{
Path: pattern.Path,
DeniedPatterns: pattern.DeniedPatterns,
DenyPolicy: pattern.DenyPolicy,
})
}
}
return result
}
func (u *User) getPatternsFilterForPath(virtualPath string) sdk.PatternsFilter {
var filter sdk.PatternsFilter
if len(u.Filters.FilePatterns) == 0 {
return filter
}
dirsForPath := util.GetDirsForVirtualPath(virtualPath)
for _, dir := range dirsForPath {
for _, f := range u.Filters.FilePatterns {
if f.Path == dir {
filter = f
break
}
}
if filter.Path != "" {
break
}
}
return filter
}
func (u *User) isDirHidden(virtualPath string) bool {
if len(u.Filters.FilePatterns) == 0 {
return false
}
for _, dirPath := range util.GetDirsForVirtualPath(virtualPath) {
if dirPath == "/" {
return false
}
filter := u.getPatternsFilterForPath(dirPath)
if filter.DenyPolicy == sdk.DenyPolicyHide {
if !filter.CheckAllowed(path.Base(dirPath)) {
return true
}
}
}
return false
}
// IsFileAllowed returns true if the specified file is allowed by the file restrictions filters.
// The second parameter returned is the deny policy
func (u *User) IsFileAllowed(virtualPath string) (bool, int) {
dirPath := path.Dir(virtualPath)
if u.isDirHidden(dirPath) {
return false, sdk.DenyPolicyHide
}
filter := u.getPatternsFilterForPath(dirPath)
return filter.CheckAllowed(path.Base(virtualPath)), filter.DenyPolicy
}
// CanManageMFA returns true if the user can add a multi-factor authentication configuration
func (u *User) CanManageMFA() bool {
if util.IsStringInSlice(sdk.WebClientMFADisabled, u.Filters.WebClient) {
return false
}
return len(mfa.GetAvailableTOTPConfigs()) > 0
}
func (u *User) isExternalAuthCached() bool {
if u.ID <= 0 {
return false
}
if u.Filters.ExternalAuthCacheTime <= 0 {
return false
}
return isLastActivityRecent(u.LastLogin, time.Duration(u.Filters.ExternalAuthCacheTime)*time.Second)
}
// CanManageShares returns true if the user can add, update and list shares
func (u *User) CanManageShares() bool {
return !util.IsStringInSlice(sdk.WebClientSharesDisabled, u.Filters.WebClient)
}
// CanResetPassword returns true if this user is allowed to reset its password
func (u *User) CanResetPassword() bool {
return !util.IsStringInSlice(sdk.WebClientPasswordResetDisabled, u.Filters.WebClient)
}
// CanChangePassword returns true if this user is allowed to change its password
func (u *User) CanChangePassword() bool {
return !util.IsStringInSlice(sdk.WebClientPasswordChangeDisabled, u.Filters.WebClient)
}
// CanChangeAPIKeyAuth returns true if this user is allowed to enable/disable API key authentication
func (u *User) CanChangeAPIKeyAuth() bool {
return !util.IsStringInSlice(sdk.WebClientAPIKeyAuthChangeDisabled, u.Filters.WebClient)
}
// CanChangeInfo returns true if this user is allowed to change its info such as email and description
func (u *User) CanChangeInfo() bool {
return !util.IsStringInSlice(sdk.WebClientInfoChangeDisabled, u.Filters.WebClient)
}
// CanManagePublicKeys returns true if this user is allowed to manage public keys
// from the web client. Used in web client UI
func (u *User) CanManagePublicKeys() bool {
return !util.IsStringInSlice(sdk.WebClientPubKeyChangeDisabled, u.Filters.WebClient)
}
// CanAddFilesFromWeb returns true if the client can add files from the web UI.
// The specified target is the directory where the files must be uploaded
func (u *User) CanAddFilesFromWeb(target string) bool {
if util.IsStringInSlice(sdk.WebClientWriteDisabled, u.Filters.WebClient) {
return false
}
return u.HasPerm(PermUpload, target) || u.HasPerm(PermOverwrite, target)
}
// CanAddDirsFromWeb returns true if the client can add directories from the web UI.
// The specified target is the directory where the new directory must be created
func (u *User) CanAddDirsFromWeb(target string) bool {
if util.IsStringInSlice(sdk.WebClientWriteDisabled, u.Filters.WebClient) {
return false
}
return u.HasPerm(PermCreateDirs, target)
}
// CanRenameFromWeb returns true if the client can rename objects from the web UI.
// The specified src and dest are the source and target directories for the rename.
func (u *User) CanRenameFromWeb(src, dest string) bool {
if util.IsStringInSlice(sdk.WebClientWriteDisabled, u.Filters.WebClient) {
return false
}
return u.HasAnyPerm(permsRenameAny, src) && u.HasAnyPerm(permsRenameAny, dest)
}
// CanDeleteFromWeb returns true if the client can delete objects from the web UI.
// The specified target is the parent directory for the object to delete
func (u *User) CanDeleteFromWeb(target string) bool {
if util.IsStringInSlice(sdk.WebClientWriteDisabled, u.Filters.WebClient) {
return false
}
return u.HasAnyPerm(permsDeleteAny, target)
}
// MustSetSecondFactor returns true if the user must set a second factor authentication
func (u *User) MustSetSecondFactor() bool {
if len(u.Filters.TwoFactorAuthProtocols) > 0 {
if !u.Filters.TOTPConfig.Enabled {
return true
}
for _, p := range u.Filters.TwoFactorAuthProtocols {
if !util.IsStringInSlice(p, u.Filters.TOTPConfig.Protocols) {
return true
}
}
}
return false
}
// MustSetSecondFactorForProtocol returns true if the user must set a second factor authentication
// for the specified protocol
func (u *User) MustSetSecondFactorForProtocol(protocol string) bool {
if util.IsStringInSlice(protocol, u.Filters.TwoFactorAuthProtocols) {
if !u.Filters.TOTPConfig.Enabled {
return true
}
if !util.IsStringInSlice(protocol, u.Filters.TOTPConfig.Protocols) {
return true
}
}
return false
}
// GetSignature returns a signature for this admin.
// It could change after an update
func (u *User) GetSignature() string {
data := []byte(fmt.Sprintf("%v_%v_%v", u.Username, u.Status, u.ExpirationDate))
data = append(data, []byte(u.Password)...)
signature := sha256.Sum256(data)
return base64.StdEncoding.EncodeToString(signature[:])
}
// GetBandwidthForIP returns the upload and download bandwidth for the specified IP
func (u *User) GetBandwidthForIP(clientIP, connectionID string) (int64, int64) {
if len(u.Filters.BandwidthLimits) > 0 {
ip := net.ParseIP(clientIP)
if ip != nil {
for _, bwLimit := range u.Filters.BandwidthLimits {
for _, source := range bwLimit.Sources {
_, ipNet, err := net.ParseCIDR(source)
if err == nil {
if ipNet.Contains(ip) {
logger.Debug(logSender, connectionID, "override bandwidth limit for ip %#v, upload limit: %v KB/s, download limit: %v KB/s",
clientIP, bwLimit.UploadBandwidth, bwLimit.DownloadBandwidth)
return bwLimit.UploadBandwidth, bwLimit.DownloadBandwidth
}
}
}
}
}
}
return u.UploadBandwidth, u.DownloadBandwidth
}
// IsLoginFromAddrAllowed returns true if the login is allowed from the specified remoteAddr.
// If AllowedIP is defined only the specified IP/Mask can login.
// If DeniedIP is defined the specified IP/Mask cannot login.
// If an IP is both allowed and denied then login will be denied
func (u *User) IsLoginFromAddrAllowed(remoteAddr string) bool {
if len(u.Filters.AllowedIP) == 0 && len(u.Filters.DeniedIP) == 0 {
return true
}
remoteIP := net.ParseIP(util.GetIPFromRemoteAddress(remoteAddr))
// if remoteIP is invalid we allow login, this should never happen
if remoteIP == nil {
logger.Warn(logSender, "", "login allowed for invalid IP. remote address: %#v", remoteAddr)
return true
}
for _, IPMask := range u.Filters.DeniedIP {
_, IPNet, err := net.ParseCIDR(IPMask)
if err != nil {
return false
}
if IPNet.Contains(remoteIP) {
return false
}
}
for _, IPMask := range u.Filters.AllowedIP {
_, IPNet, err := net.ParseCIDR(IPMask)
if err != nil {
return false
}
if IPNet.Contains(remoteIP) {
return true
}
}
return len(u.Filters.AllowedIP) == 0
}
// GetPermissionsAsJSON returns the permissions as json byte array
func (u *User) GetPermissionsAsJSON() ([]byte, error) {
return json.Marshal(u.Permissions)
}
// GetPublicKeysAsJSON returns the public keys as json byte array
func (u *User) GetPublicKeysAsJSON() ([]byte, error) {
return json.Marshal(u.PublicKeys)
}
// GetFiltersAsJSON returns the filters as json byte array
func (u *User) GetFiltersAsJSON() ([]byte, error) {
return json.Marshal(u.Filters)
}
// GetFsConfigAsJSON returns the filesystem config as json byte array
func (u *User) GetFsConfigAsJSON() ([]byte, error) {
return json.Marshal(u.FsConfig)
}
// GetUID returns a validate uid, suitable for use with os.Chown
func (u *User) GetUID() int {
if u.UID <= 0 || u.UID > math.MaxInt32 {
return -1
}
return u.UID
}
// GetGID returns a validate gid, suitable for use with os.Chown
func (u *User) GetGID() int {
if u.GID <= 0 || u.GID > math.MaxInt32 {
return -1
}
return u.GID
}
// GetHomeDir returns the shortest path name equivalent to the user's home directory
func (u *User) GetHomeDir() string {
return filepath.Clean(u.HomeDir)
}
// HasRecentActivity returns true if the last user login is recent and so we can skip some expensive checks
func (u *User) HasRecentActivity() bool {
return isLastActivityRecent(u.LastLogin, lastLoginMinDelay)
}
// HasQuotaRestrictions returns true if there are any disk quota restrictions
func (u *User) HasQuotaRestrictions() bool {
return u.QuotaFiles > 0 || u.QuotaSize > 0
}
// HasTransferQuotaRestrictions returns true if there are any data transfer restrictions
func (u *User) HasTransferQuotaRestrictions() bool {
if len(u.Filters.DataTransferLimits) > 0 {
return true
}
return u.UploadDataTransfer > 0 || u.TotalDataTransfer > 0 || u.DownloadDataTransfer > 0
}
// GetDataTransferLimits returns upload, download and total data transfer limits
func (u *User) GetDataTransferLimits(clientIP string) (int64, int64, int64) {
var total, ul, dl int64
if len(u.Filters.DataTransferLimits) > 0 {
ip := net.ParseIP(clientIP)
if ip != nil {
for _, limit := range u.Filters.DataTransferLimits {
for _, source := range limit.Sources {
_, ipNet, err := net.ParseCIDR(source)
if err == nil {
if ipNet.Contains(ip) {
if limit.TotalDataTransfer > 0 {
total = limit.TotalDataTransfer * 1048576
}
if limit.DownloadDataTransfer > 0 {
dl = limit.DownloadDataTransfer * 1048576
}
if limit.UploadDataTransfer > 0 {
ul = limit.UploadDataTransfer * 1048576
}
return ul, dl, total
}
}
}
}
}
}
if u.TotalDataTransfer > 0 {
total = u.TotalDataTransfer * 1048576
}
if u.DownloadDataTransfer > 0 {
dl = u.DownloadDataTransfer * 1048576
}
if u.UploadDataTransfer > 0 {
ul = u.UploadDataTransfer * 1048576
}
return ul, dl, total
}
// GetQuotaSummary returns used quota and limits if defined
func (u *User) GetQuotaSummary() string {
var sb strings.Builder
addSection := func() {
if sb.Len() > 0 {
sb.WriteString(". ")
}
}
if u.UsedQuotaFiles > 0 || u.QuotaFiles > 0 {
sb.WriteString(fmt.Sprintf("Files: %v", u.UsedQuotaFiles))
if u.QuotaFiles > 0 {
sb.WriteString(fmt.Sprintf("/%v", u.QuotaFiles))
}
}
if u.UsedQuotaSize > 0 || u.QuotaSize > 0 {
addSection()
sb.WriteString(fmt.Sprintf("Size: %v", util.ByteCountIEC(u.UsedQuotaSize)))
if u.QuotaSize > 0 {
sb.WriteString(fmt.Sprintf("/%v", util.ByteCountIEC(u.QuotaSize)))
}
}
if u.TotalDataTransfer > 0 {
addSection()
total := u.UsedDownloadDataTransfer + u.UsedUploadDataTransfer
sb.WriteString(fmt.Sprintf("Transfer: %v/%v", util.ByteCountIEC(total),
util.ByteCountIEC(u.TotalDataTransfer*1048576)))
}
if u.UploadDataTransfer > 0 {
addSection()
sb.WriteString(fmt.Sprintf("UL: %v/%v", util.ByteCountIEC(u.UsedUploadDataTransfer),
util.ByteCountIEC(u.UploadDataTransfer*1048576)))
}
if u.DownloadDataTransfer > 0 {
addSection()
sb.WriteString(fmt.Sprintf("DL: %v/%v", util.ByteCountIEC(u.UsedDownloadDataTransfer),
util.ByteCountIEC(u.DownloadDataTransfer*1048576)))
}
if u.LastQuotaUpdate > 0 {
addSection()
t := util.GetTimeFromMsecSinceEpoch(u.LastQuotaUpdate)
sb.WriteString(fmt.Sprintf("Last update: %v", t.Format("2006-01-02 15:04"))) // YYYY-MM-DD HH:MM
}
return sb.String()
}
// GetPermissionsAsString returns the user's permissions as comma separated string
func (u *User) GetPermissionsAsString() string {
result := ""
for dir, perms := range u.Permissions {
dirPerms := strings.Join(perms, ", ")
dp := fmt.Sprintf("%#v: %#v", dir, dirPerms)
if dir == "/" {
if result != "" {
result = dp + ", " + result
} else {
result = dp
}
} else {
if result != "" {
result += ", "
}
result += dp
}
}
return result
}
// GetBandwidthAsString returns bandwidth limits if defines
func (u *User) GetBandwidthAsString() string {
result := "DL: "
if u.DownloadBandwidth > 0 {
result += util.ByteCountIEC(u.DownloadBandwidth*1000) + "/s."
} else {
result += "unlimited."
}
result += " UL: "
if u.UploadBandwidth > 0 {
result += util.ByteCountIEC(u.UploadBandwidth*1000) + "/s."
} else {
result += "unlimited."
}
return result
}
// GetInfoString returns user's info as string.
// Storage provider, number of public keys, max sessions, uid,
// gid, denied and allowed IP/Mask are returned
func (u *User) GetInfoString() string {
var result strings.Builder
if u.LastLogin > 0 {
t := util.GetTimeFromMsecSinceEpoch(u.LastLogin)
result.WriteString(fmt.Sprintf("Last login: %v. ", t.Format("2006-01-02 15:04"))) // YYYY-MM-DD HH:MM
}
if u.FsConfig.Provider != sdk.LocalFilesystemProvider {
result.WriteString(fmt.Sprintf("Storage: %s. ", u.FsConfig.Provider.ShortInfo()))
}
if len(u.PublicKeys) > 0 {
result.WriteString(fmt.Sprintf("Public keys: %v. ", len(u.PublicKeys)))
}
if u.MaxSessions > 0 {
result.WriteString(fmt.Sprintf("Max sessions: %v. ", u.MaxSessions))
}
if u.UID > 0 {
result.WriteString(fmt.Sprintf("UID: %v. ", u.UID))
}
if u.GID > 0 {
result.WriteString(fmt.Sprintf("GID: %v. ", u.GID))
}
if len(u.Filters.DeniedIP) > 0 {
result.WriteString(fmt.Sprintf("Denied IP/Mask: %v. ", len(u.Filters.DeniedIP)))
}
if len(u.Filters.AllowedIP) > 0 {
result.WriteString(fmt.Sprintf("Allowed IP/Mask: %v", len(u.Filters.AllowedIP)))
}
return result.String()
}
// GetStatusAsString returns the user status as a string
func (u *User) GetStatusAsString() string {
if u.ExpirationDate > 0 && u.ExpirationDate < util.GetTimeAsMsSinceEpoch(time.Now()) {
return "Expired"
}
if u.Status == 1 {
return "Active"
}
return "Inactive"
}
// GetExpirationDateAsString returns expiration date formatted as YYYY-MM-DD
func (u *User) GetExpirationDateAsString() string {
if u.ExpirationDate > 0 {
t := util.GetTimeFromMsecSinceEpoch(u.ExpirationDate)
return t.Format("2006-01-02")
}
return ""
}
// GetAllowedIPAsString returns the allowed IP as comma separated string
func (u *User) GetAllowedIPAsString() string {
return strings.Join(u.Filters.AllowedIP, ",")
}
// GetDeniedIPAsString returns the denied IP as comma separated string
func (u *User) GetDeniedIPAsString() string {
return strings.Join(u.Filters.DeniedIP, ",")
}
// HasExternalAuth returns true if the external authentication is globally enabled
// and it is not disabled for this user
func (u *User) HasExternalAuth() bool {
if u.Filters.Hooks.ExternalAuthDisabled {
return false
}
if config.ExternalAuthHook != "" {
return true
}
return plugin.Handler.HasAuthenticators()
}
// CountUnusedRecoveryCodes returns the number of unused recovery codes
func (u *User) CountUnusedRecoveryCodes() int {
unused := 0
for _, code := range u.Filters.RecoveryCodes {
if !code.Used {
unused++
}
}
return unused
}
// SetEmptySecretsIfNil sets the secrets to empty if nil
func (u *User) SetEmptySecretsIfNil() {
u.FsConfig.SetEmptySecretsIfNil()
for idx := range u.VirtualFolders {
vfolder := &u.VirtualFolders[idx]
vfolder.FsConfig.SetEmptySecretsIfNil()
}
if u.Filters.TOTPConfig.Secret == nil {
u.Filters.TOTPConfig.Secret = kms.NewEmptySecret()
}
}
func (u *User) getACopy() User {
u.SetEmptySecretsIfNil()
pubKeys := make([]string, len(u.PublicKeys))
copy(pubKeys, u.PublicKeys)
virtualFolders := make([]vfs.VirtualFolder, 0, len(u.VirtualFolders))
for idx := range u.VirtualFolders {
vfolder := u.VirtualFolders[idx].GetACopy()
virtualFolders = append(virtualFolders, vfolder)
}
permissions := make(map[string][]string)
for k, v := range u.Permissions {
perms := make([]string, len(v))
copy(perms, v)
permissions[k] = perms
}
filters := UserFilters{}
filters.MaxUploadFileSize = u.Filters.MaxUploadFileSize
filters.TLSUsername = u.Filters.TLSUsername
filters.UserType = u.Filters.UserType
filters.TOTPConfig.Enabled = u.Filters.TOTPConfig.Enabled
filters.TOTPConfig.ConfigName = u.Filters.TOTPConfig.ConfigName
filters.TOTPConfig.Secret = u.Filters.TOTPConfig.Secret.Clone()
filters.TOTPConfig.Protocols = make([]string, len(u.Filters.TOTPConfig.Protocols))
copy(filters.TOTPConfig.Protocols, u.Filters.TOTPConfig.Protocols)
filters.AllowedIP = make([]string, len(u.Filters.AllowedIP))
copy(filters.AllowedIP, u.Filters.AllowedIP)
filters.DeniedIP = make([]string, len(u.Filters.DeniedIP))
copy(filters.DeniedIP, u.Filters.DeniedIP)
filters.DeniedLoginMethods = make([]string, len(u.Filters.DeniedLoginMethods))
copy(filters.DeniedLoginMethods, u.Filters.DeniedLoginMethods)
filters.FilePatterns = make([]sdk.PatternsFilter, len(u.Filters.FilePatterns))
copy(filters.FilePatterns, u.Filters.FilePatterns)
filters.DeniedProtocols = make([]string, len(u.Filters.DeniedProtocols))
copy(filters.DeniedProtocols, u.Filters.DeniedProtocols)
filters.TwoFactorAuthProtocols = make([]string, len(u.Filters.TwoFactorAuthProtocols))
copy(filters.TwoFactorAuthProtocols, u.Filters.TwoFactorAuthProtocols)
filters.Hooks.ExternalAuthDisabled = u.Filters.Hooks.ExternalAuthDisabled
filters.Hooks.PreLoginDisabled = u.Filters.Hooks.PreLoginDisabled
filters.Hooks.CheckPasswordDisabled = u.Filters.Hooks.CheckPasswordDisabled
filters.DisableFsChecks = u.Filters.DisableFsChecks
filters.StartDirectory = u.Filters.StartDirectory
filters.AllowAPIKeyAuth = u.Filters.AllowAPIKeyAuth
filters.ExternalAuthCacheTime = u.Filters.ExternalAuthCacheTime
filters.WebClient = make([]string, len(u.Filters.WebClient))
copy(filters.WebClient, u.Filters.WebClient)
filters.RecoveryCodes = make([]RecoveryCode, 0, len(u.Filters.RecoveryCodes))
for _, code := range u.Filters.RecoveryCodes {
if code.Secret == nil {
code.Secret = kms.NewEmptySecret()
}
filters.RecoveryCodes = append(filters.RecoveryCodes, RecoveryCode{
Secret: code.Secret.Clone(),
Used: code.Used,
})
}
filters.BandwidthLimits = make([]sdk.BandwidthLimit, 0, len(u.Filters.BandwidthLimits))
for _, limit := range u.Filters.BandwidthLimits {
bwLimit := sdk.BandwidthLimit{
UploadBandwidth: limit.UploadBandwidth,
DownloadBandwidth: limit.DownloadBandwidth,
Sources: make([]string, 0, len(limit.Sources)),
}
bwLimit.Sources = make([]string, len(limit.Sources))
copy(bwLimit.Sources, limit.Sources)
filters.BandwidthLimits = append(filters.BandwidthLimits, bwLimit)
}
filters.DataTransferLimits = make([]sdk.DataTransferLimit, 0, len(u.Filters.DataTransferLimits))
for _, limit := range u.Filters.DataTransferLimits {
dtLimit := sdk.DataTransferLimit{
UploadDataTransfer: limit.UploadDataTransfer,
DownloadDataTransfer: limit.DownloadDataTransfer,
TotalDataTransfer: limit.TotalDataTransfer,
Sources: make([]string, 0, len(limit.Sources)),
}
dtLimit.Sources = make([]string, len(limit.Sources))
copy(dtLimit.Sources, limit.Sources)
filters.DataTransferLimits = append(filters.DataTransferLimits, dtLimit)
}
return User{
BaseUser: sdk.BaseUser{
ID: u.ID,
Username: u.Username,
Email: u.Email,
Password: u.Password,
PublicKeys: pubKeys,
HomeDir: u.HomeDir,
UID: u.UID,
GID: u.GID,
MaxSessions: u.MaxSessions,
QuotaSize: u.QuotaSize,
QuotaFiles: u.QuotaFiles,
Permissions: permissions,
UsedQuotaSize: u.UsedQuotaSize,
UsedQuotaFiles: u.UsedQuotaFiles,
LastQuotaUpdate: u.LastQuotaUpdate,
UploadBandwidth: u.UploadBandwidth,
DownloadBandwidth: u.DownloadBandwidth,
UploadDataTransfer: u.UploadDataTransfer,
DownloadDataTransfer: u.DownloadDataTransfer,
TotalDataTransfer: u.TotalDataTransfer,
UsedUploadDataTransfer: u.UsedUploadDataTransfer,
UsedDownloadDataTransfer: u.UsedDownloadDataTransfer,
Status: u.Status,
ExpirationDate: u.ExpirationDate,
LastLogin: u.LastLogin,
AdditionalInfo: u.AdditionalInfo,
Description: u.Description,
CreatedAt: u.CreatedAt,
UpdatedAt: u.UpdatedAt,
},
Filters: filters,
VirtualFolders: virtualFolders,
FsConfig: u.FsConfig.GetACopy(),
}
}
// GetEncryptionAdditionalData returns the additional data to use for AEAD
func (u *User) GetEncryptionAdditionalData() string {
return u.Username
}
// GetGCSCredentialsFilePath returns the path for GCS credentials
func (u *User) GetGCSCredentialsFilePath() string {
return filepath.Join(credentialsDirPath, fmt.Sprintf("%v_gcs_credentials.json", u.Username))
}